Towards the solution of the CP/CA anomaly in shell-model calculations of muon capture
Abstract
Recently many authors have performed shell-model calculations of nuclear matrix elements determining the rates of the ordinary muon capture in light nuclei. These calculations have employed well-tested effective interactions in large scale shell-model studies. For one of the nuclei of interest, namely 28Si, there exists recent experimental data which can be used to deduce the value of the ratio CP/CA by using the calculated matrix elements. Surprisingly enough, all the abovementioned shell-model results suggest a very small value ( 0) for CP/CA, quite far from the PCAC prediction and recent data on muon capture in hydrogen. We show that this rather disturbing anomaly is solved by employing effective transition operators. This finding is also very important in studies of the scalar coupling of the weak charged current of leptons and hadrons.
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